The structural differences between two major forms of the alpha subunit of the heterotrimeric G protein GO were found to be due to deamidation of either of two Asn residues near the C-terminus of the proteins, in a region involved in receptor recognition. GO is the most abundant heterotrimeric G protein in mammalian brain. Two forms of the protein, GOA and GOB, are known to be generated by alternative splicing of a single GOalpha gene. A third isoform, alphaOC, represents about 1/3 of the alphaO protein in brain and is related to alphaOA, from which it is thought to be generated by protein modification. Mass spectrometry and chemical derivatization of tryptic fragments of the proteins were used to localize the structural difference between alphaOA and alphaOC to a C-terminal peptide. Sequence analysis of a C-terminal chymotryptic fragment both by ion trap mass spectrometry and by Edman degradation identified Asn346 and Asn347 of alphaOA as alternative deamidation sites in alphaOC. These structural differences have immediate implications for G protein function, as they occur in a conformationally sensitive part of the protein involved in receptor recognition and activation. Since Asn347 is a conserved residue present in most G protein alpha subunits outside the alphas family, these observations may have general significance for many G proteins. Deamidation may be a component of a novel process for modifying or adapting cellular responses mediated by G proteins.